/* * This file is part of Shairport Sync. * Copyright (c) Mike Brady 2018 -- 2019 * All rights reserved. * * Permission is hereby granted, free of charge, to any person * obtaining a copy of this software and associated documentation * files (the "Software"), to deal in the Software without * restriction, including without limitation the rights to use, * copy, modify, merge, publish, distribute, sublicense, and/or * sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be * included in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT * HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, * WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR * OTHER DEALINGS IN THE SOFTWARE. */ #include #include #include #include #include "config.h" #include "common.h" #include "player.h" #include "rtsp.h" #include "rtp.h" #include "dacp.h" #include "metadata_hub.h" #include "dbus-service.h" #ifdef CONFIG_CONVOLUTION #include #endif ShairportSync *shairportSyncSkeleton; int service_is_running = 0; ShairportSyncDiagnostics *shairportSyncDiagnosticsSkeleton = NULL; ShairportSyncRemoteControl *shairportSyncRemoteControlSkeleton = NULL; ShairportSyncAdvancedRemoteControl *shairportSyncAdvancedRemoteControlSkeleton = NULL; guint ownerID = 0; void dbus_metadata_watcher(struct metadata_bundle *argc, __attribute__((unused)) void *userdata) { char response[100]; gboolean current_status, new_status; const char *th; shairport_sync_advanced_remote_control_set_volume(shairportSyncAdvancedRemoteControlSkeleton, argc->speaker_volume); shairport_sync_remote_control_set_airplay_volume(shairportSyncRemoteControlSkeleton, argc->airplay_volume); shairport_sync_remote_control_set_client(shairportSyncRemoteControlSkeleton, argc->client_ip); // although it's a DACP server, the server is in fact, part of the the AirPlay "client" (their // term). if (argc->dacp_server_active) { shairport_sync_remote_control_set_available(shairportSyncRemoteControlSkeleton, TRUE); } else { shairport_sync_remote_control_set_available(shairportSyncRemoteControlSkeleton, FALSE); } if (argc->advanced_dacp_server_active) { shairport_sync_advanced_remote_control_set_available(shairportSyncAdvancedRemoteControlSkeleton, TRUE); } else { shairport_sync_advanced_remote_control_set_available(shairportSyncAdvancedRemoteControlSkeleton, FALSE); } if (argc->progress_string) { // debug(1, "Check progress string"); th = shairport_sync_remote_control_get_progress_string(shairportSyncRemoteControlSkeleton); if ((th == NULL) || (strcasecmp(th, argc->progress_string) != 0)) { // debug(1, "Progress string should be changed"); shairport_sync_remote_control_set_progress_string(shairportSyncRemoteControlSkeleton, argc->progress_string); } } switch (argc->player_state) { case PS_NOT_AVAILABLE: shairport_sync_remote_control_set_player_state(shairportSyncRemoteControlSkeleton, "Not Available"); break; case PS_STOPPED: shairport_sync_remote_control_set_player_state(shairportSyncRemoteControlSkeleton, "Stopped"); break; case PS_PAUSED: shairport_sync_remote_control_set_player_state(shairportSyncRemoteControlSkeleton, "Paused"); break; case PS_PLAYING: shairport_sync_remote_control_set_player_state(shairportSyncRemoteControlSkeleton, "Playing"); break; default: debug(1, "This should never happen."); } switch (argc->play_status) { case PS_NOT_AVAILABLE: strcpy(response, "Not Available"); break; case PS_STOPPED: strcpy(response, "Stopped"); break; case PS_PAUSED: strcpy(response, "Paused"); break; case PS_PLAYING: strcpy(response, "Playing"); break; default: debug(1, "This should never happen."); } th = shairport_sync_advanced_remote_control_get_playback_status( shairportSyncAdvancedRemoteControlSkeleton); // only set this if it's different if ((th == NULL) || (strcasecmp(th, response) != 0)) { debug(3, "Playback Status should be changed"); shairport_sync_advanced_remote_control_set_playback_status( shairportSyncAdvancedRemoteControlSkeleton, response); } switch (argc->repeat_status) { case RS_NOT_AVAILABLE: strcpy(response, "Not Available"); break; case RS_OFF: strcpy(response, "Off"); break; case RS_ONE: strcpy(response, "One"); break; case RS_ALL: strcpy(response, "All"); break; default: debug(1, "This should never happen."); } th = shairport_sync_advanced_remote_control_get_loop_status( shairportSyncAdvancedRemoteControlSkeleton); // only set this if it's different if ((th == NULL) || (strcasecmp(th, response) != 0)) { debug(3, "Loop Status should be changed"); shairport_sync_advanced_remote_control_set_loop_status( shairportSyncAdvancedRemoteControlSkeleton, response); } switch (argc->shuffle_status) { case SS_NOT_AVAILABLE: new_status = FALSE; break; case SS_OFF: new_status = FALSE; break; case SS_ON: new_status = TRUE; break; default: new_status = FALSE; debug(1, "Unknown shuffle status -- this should never happen."); } current_status = shairport_sync_advanced_remote_control_get_shuffle( shairportSyncAdvancedRemoteControlSkeleton); // only set this if it's different if (current_status != new_status) { debug(3, "Shuffle State should be changed"); shairport_sync_advanced_remote_control_set_shuffle(shairportSyncAdvancedRemoteControlSkeleton, new_status); } // Build the metadata array debug(2, "Build metadata"); GVariantBuilder *dict_builder = g_variant_builder_new(G_VARIANT_TYPE("a{sv}")); // Add in the artwork URI if it exists. if (argc->cover_art_pathname) { GVariant *artUrl = g_variant_new("s", argc->cover_art_pathname); g_variant_builder_add(dict_builder, "{sv}", "mpris:artUrl", artUrl); } // Add in the Track ID based on the 'mper' metadata if it is non-zero if (argc->item_id != 0) { char trackidstring[128]; snprintf(trackidstring, sizeof(trackidstring), "/org/gnome/ShairportSync/%" PRIX64 "", argc->item_id); GVariant *trackid = g_variant_new("o", trackidstring); g_variant_builder_add(dict_builder, "{sv}", "mpris:trackid", trackid); } // Add the track name if it exists if (argc->track_name) { GVariant *track_name = g_variant_new("s", argc->track_name); g_variant_builder_add(dict_builder, "{sv}", "xesam:title", track_name); } // Add the album name if it exists if (argc->album_name) { GVariant *album_name = g_variant_new("s", argc->album_name); g_variant_builder_add(dict_builder, "{sv}", "xesam:album", album_name); } // Add the artist name if it exists if (argc->artist_name) { GVariantBuilder *artist_as = g_variant_builder_new(G_VARIANT_TYPE("as")); g_variant_builder_add(artist_as, "s", argc->artist_name); GVariant *artists = g_variant_builder_end(artist_as); g_variant_builder_unref(artist_as); g_variant_builder_add(dict_builder, "{sv}", "xesam:artist", artists); } // Add the genre if it exists if (argc->genre) { GVariantBuilder *genre_as = g_variant_builder_new(G_VARIANT_TYPE("as")); g_variant_builder_add(genre_as, "s", argc->genre); GVariant *genre = g_variant_builder_end(genre_as); g_variant_builder_unref(genre_as); g_variant_builder_add(dict_builder, "{sv}", "xesam:genre", genre); } if (argc->songtime_in_milliseconds) { uint64_t track_length_in_microseconds = argc->songtime_in_milliseconds; track_length_in_microseconds *= 1000; // to microseconds in 64-bit precision // Make up the track name and album name // debug(1, "Set tracklength to %lu.", track_length_in_microseconds); GVariant *tracklength = g_variant_new("x", track_length_in_microseconds); g_variant_builder_add(dict_builder, "{sv}", "mpris:length", tracklength); } GVariant *dict = g_variant_builder_end(dict_builder); g_variant_builder_unref(dict_builder); shairport_sync_remote_control_set_metadata(shairportSyncRemoteControlSkeleton, dict); } static gboolean on_handle_set_volume(ShairportSyncAdvancedRemoteControl *skeleton, GDBusMethodInvocation *invocation, const gint volume, __attribute__((unused)) gpointer user_data) { debug(2, "Set volume to %d.", volume); dacp_set_volume(volume); shairport_sync_advanced_remote_control_complete_set_volume(skeleton, invocation); return TRUE; } static gboolean on_handle_fast_forward(ShairportSyncRemoteControl *skeleton, GDBusMethodInvocation *invocation, __attribute__((unused)) gpointer user_data) { send_simple_dacp_command("beginff"); shairport_sync_remote_control_complete_fast_forward(skeleton, invocation); return TRUE; } static gboolean on_handle_rewind(ShairportSyncRemoteControl *skeleton, GDBusMethodInvocation *invocation, __attribute__((unused)) gpointer user_data) { send_simple_dacp_command("beginrew"); shairport_sync_remote_control_complete_rewind(skeleton, invocation); return TRUE; } static gboolean on_handle_toggle_mute(ShairportSyncRemoteControl *skeleton, GDBusMethodInvocation *invocation, __attribute__((unused)) gpointer user_data) { send_simple_dacp_command("mutetoggle"); shairport_sync_remote_control_complete_toggle_mute(skeleton, invocation); return TRUE; } static gboolean on_handle_next(ShairportSyncRemoteControl *skeleton, GDBusMethodInvocation *invocation, __attribute__((unused)) gpointer user_data) { send_simple_dacp_command("nextitem"); shairport_sync_remote_control_complete_next(skeleton, invocation); return TRUE; } static gboolean on_handle_previous(ShairportSyncRemoteControl *skeleton, GDBusMethodInvocation *invocation, __attribute__((unused)) gpointer user_data) { send_simple_dacp_command("previtem"); shairport_sync_remote_control_complete_previous(skeleton, invocation); return TRUE; } static gboolean on_handle_pause(ShairportSyncRemoteControl *skeleton, GDBusMethodInvocation *invocation, __attribute__((unused)) gpointer user_data) { send_simple_dacp_command("pause"); shairport_sync_remote_control_complete_pause(skeleton, invocation); return TRUE; } static gboolean on_handle_play_pause(ShairportSyncRemoteControl *skeleton, GDBusMethodInvocation *invocation, __attribute__((unused)) gpointer user_data) { send_simple_dacp_command("playpause"); shairport_sync_remote_control_complete_play_pause(skeleton, invocation); return TRUE; } static gboolean on_handle_play(ShairportSyncRemoteControl *skeleton, GDBusMethodInvocation *invocation, __attribute__((unused)) gpointer user_data) { send_simple_dacp_command("play"); shairport_sync_remote_control_complete_play(skeleton, invocation); return TRUE; } static gboolean on_handle_stop(ShairportSyncRemoteControl *skeleton, GDBusMethodInvocation *invocation, __attribute__((unused)) gpointer user_data) { send_simple_dacp_command("stop"); shairport_sync_remote_control_complete_stop(skeleton, invocation); return TRUE; } static gboolean on_handle_resume(ShairportSyncRemoteControl *skeleton, GDBusMethodInvocation *invocation, __attribute__((unused)) gpointer user_data) { send_simple_dacp_command("playresume"); shairport_sync_remote_control_complete_resume(skeleton, invocation); return TRUE; } static gboolean on_handle_shuffle_songs(ShairportSyncRemoteControl *skeleton, GDBusMethodInvocation *invocation, __attribute__((unused)) gpointer user_data) { send_simple_dacp_command("shuffle_songs"); shairport_sync_remote_control_complete_shuffle_songs(skeleton, invocation); return TRUE; } static gboolean on_handle_volume_up(ShairportSyncRemoteControl *skeleton, GDBusMethodInvocation *invocation, __attribute__((unused)) gpointer user_data) { send_simple_dacp_command("volumeup"); shairport_sync_remote_control_complete_volume_up(skeleton, invocation); return TRUE; } static gboolean on_handle_volume_down(ShairportSyncRemoteControl *skeleton, GDBusMethodInvocation *invocation, __attribute__((unused)) gpointer user_data) { send_simple_dacp_command("volumedown"); shairport_sync_remote_control_complete_volume_down(skeleton, invocation); return TRUE; } static gboolean on_handle_set_airplay_volume(ShairportSyncRemoteControl *skeleton, GDBusMethodInvocation *invocation, const gdouble volume, __attribute__((unused)) gpointer user_data) { debug(2, "Set airplay volume to %.6f.", volume); char command[256] = ""; snprintf(command, sizeof(command), "setproperty?dmcp.device-volume=%.6f", volume); send_simple_dacp_command(command); shairport_sync_remote_control_complete_set_airplay_volume(skeleton, invocation); return TRUE; } gboolean notify_elapsed_time_callback(ShairportSyncDiagnostics *skeleton, __attribute__((unused)) gpointer user_data) { // debug(1, "\"notify_elapsed_time_callback\" called."); if (shairport_sync_diagnostics_get_elapsed_time(skeleton)) { config.debugger_show_elapsed_time = 1; debug(1, ">> start including elapsed time in logs"); } else { config.debugger_show_elapsed_time = 0; debug(1, ">> stop including elapsed time in logs"); } return TRUE; } gboolean notify_delta_time_callback(ShairportSyncDiagnostics *skeleton, __attribute__((unused)) gpointer user_data) { // debug(1, "\"notify_delta_time_callback\" called."); if (shairport_sync_diagnostics_get_delta_time(skeleton)) { config.debugger_show_relative_time = 1; debug(1, ">> start including delta time in logs"); } else { config.debugger_show_relative_time = 0; debug(1, ">> stop including delta time in logs"); } return TRUE; } gboolean notify_file_and_line_callback(ShairportSyncDiagnostics *skeleton, __attribute__((unused)) gpointer user_data) { // debug(1, "\"notify_file_and_line_callback\" called."); if (shairport_sync_diagnostics_get_file_and_line(skeleton)) { config.debugger_show_file_and_line = 1; debug(1, ">> start including file and line in logs"); } else { config.debugger_show_file_and_line = 0; debug(1, ">> stop including file and line in logs"); } return TRUE; } gboolean notify_statistics_callback(ShairportSyncDiagnostics *skeleton, __attribute__((unused)) gpointer user_data) { // debug(1, "\"notify_statistics_callback\" called."); if (shairport_sync_diagnostics_get_statistics(skeleton)) { debug(1, ">> start logging statistics"); config.statistics_requested = 1; } else { debug(1, ">> stop logging statistics"); config.statistics_requested = 0; } return TRUE; } gboolean notify_verbosity_callback(ShairportSyncDiagnostics *skeleton, __attribute__((unused)) gpointer user_data) { gint th = shairport_sync_diagnostics_get_verbosity(skeleton); if ((th >= 0) && (th <= 3)) { if (th == 0) debug(1, ">> log verbosity set to %d.", th); debuglev = th; debug(1, ">> log verbosity set to %d.", th); } else { debug(1, ">> invalid log verbosity: %d. Ignored.", th); shairport_sync_diagnostics_set_verbosity(skeleton, debuglev); } return TRUE; } gboolean notify_disable_standby_callback(ShairportSync *skeleton, __attribute__((unused)) gpointer user_data) { // debug(1, "\"notify_disable_standby_callback\" called."); if (shairport_sync_get_disable_standby(skeleton)) { debug(1, ">> activating disable standby"); config.keep_dac_busy = 1; } else { debug(1, ">> deactivating disable standby"); config.keep_dac_busy = 0; } return TRUE; } #ifdef CONFIG_CONVOLUTION gboolean notify_convolution_callback(ShairportSync *skeleton, __attribute__((unused)) gpointer user_data) { // debug(1, "\"notify_convolution_callback\" called."); if (shairport_sync_get_convolution(skeleton)) { debug(1, ">> activating convolution"); config.convolution = 1; config.convolver_valid = convolver_init(config.convolution_ir_file, config.convolution_max_length); } else { debug(1, ">> deactivating convolution"); config.convolution = 0; } return TRUE; } #else gboolean notify_convolution_callback(__attribute__((unused)) ShairportSync *skeleton, __attribute__((unused)) gpointer user_data) { warn(">> Convolution support is not built in to this build of Shairport Sync."); return TRUE; } #endif #ifdef CONFIG_CONVOLUTION gboolean notify_convolution_gain_callback(ShairportSync *skeleton, __attribute__((unused)) gpointer user_data) { gdouble th = shairport_sync_get_convolution_gain(skeleton); if ((th <= 0.0) && (th >= -100.0)) { debug(1, ">> setting convolution gain to %f.", th); config.convolution_gain = th; } else { debug(1, ">> invalid convolution gain: %f. Ignored.", th); shairport_sync_set_convolution_gain(skeleton, config.convolution_gain); } return TRUE; } #else gboolean notify_convolution_gain_callback(__attribute__((unused)) ShairportSync *skeleton, __attribute__((unused)) gpointer user_data) { warn(">> Convolution support is not built in to this build of Shairport Sync."); return TRUE; } #endif #ifdef CONFIG_CONVOLUTION gboolean notify_convolution_impulse_response_file_callback(ShairportSync *skeleton, __attribute__((unused)) gpointer user_data) { char *th = (char *)shairport_sync_get_convolution_impulse_response_file(skeleton); if (config.convolution_ir_file) free(config.convolution_ir_file); config.convolution_ir_file = strdup(th); debug(1, ">> setting configuration impulse response filter file to \"%s\".", config.convolution_ir_file); config.convolver_valid = convolver_init(config.convolution_ir_file, config.convolution_max_length); return TRUE; } #else gboolean notify_convolution_impulse_response_file_callback(__attribute__((unused)) ShairportSync *skeleton, __attribute__((unused)) gpointer user_data) { __attribute__((unused)) char *th = (char *)shairport_sync_get_convolution_impulse_response_file(skeleton); return TRUE; } #endif gboolean notify_loudness_callback(ShairportSync *skeleton, __attribute__((unused)) gpointer user_data) { // debug(1, "\"notify_loudness_callback\" called."); if (shairport_sync_get_loudness(skeleton)) { debug(1, ">> activating loudness"); config.loudness = 1; } else { debug(1, ">> deactivating loudness"); config.loudness = 0; } return TRUE; } gboolean notify_loudness_threshold_callback(ShairportSync *skeleton, __attribute__((unused)) gpointer user_data) { gdouble th = shairport_sync_get_loudness_threshold(skeleton); if ((th <= 0.0) && (th >= -100.0)) { debug(1, ">> setting loudness threshold to %f.", th); config.loudness_reference_volume_db = th; } else { debug(1, ">> invalid loudness threshold: %f. Ignored.", th); shairport_sync_set_loudness_threshold(skeleton, config.loudness_reference_volume_db); } return TRUE; } gboolean notify_drift_tolerance_callback(ShairportSync *skeleton, __attribute__((unused)) gpointer user_data) { gdouble dt = shairport_sync_get_drift_tolerance(skeleton); if ((dt >= 0.0) && (dt <= 2.0)) { debug(1, ">> setting drift tolerance to %f seconds", dt); config.tolerance = dt; } else { debug(1, ">> invalid drift tolerance: %f seconds. Ignored.", dt); shairport_sync_set_drift_tolerance(skeleton, config.tolerance); } return TRUE; } gboolean notify_disable_standby_mode_callback(ShairportSync *skeleton, __attribute__((unused)) gpointer user_data) { char *th = (char *)shairport_sync_get_disable_standby_mode(skeleton); if ((strcasecmp(th, "no") == 0) || (strcasecmp(th, "off") == 0) || (strcasecmp(th, "never") == 0)) { config.disable_standby_mode = disable_standby_off; config.keep_dac_busy = 0; } else if ((strcasecmp(th, "yes") == 0) || (strcasecmp(th, "on") == 0) || (strcasecmp(th, "always") == 0)) { config.disable_standby_mode = disable_standby_always; config.keep_dac_busy = 1; } else if (strcasecmp(th, "auto") == 0) config.disable_standby_mode = disable_standby_auto; else { warn("An unrecognised disable_standby_mode: \"%s\" was requested via D-Bus interface.", th); switch (config.disable_standby_mode) { case disable_standby_off: shairport_sync_set_disable_standby_mode(skeleton, "off"); break; case disable_standby_always: shairport_sync_set_disable_standby_mode(skeleton, "always"); break; case disable_standby_auto: shairport_sync_set_disable_standby_mode(skeleton, "auto"); break; default: break; } } return TRUE; } gboolean notify_alacdecoder_callback(ShairportSync *skeleton, __attribute__((unused)) gpointer user_data) { char *th = (char *)shairport_sync_get_alacdecoder(skeleton); #ifdef CONFIG_APPLE_ALAC if (strcasecmp(th, "hammerton") == 0) config.use_apple_decoder = 0; else if (strcasecmp(th, "apple") == 0) config.use_apple_decoder = 1; else { warn("An unrecognised ALAC decoder: \"%s\" was requested via D-Bus interface.", th); if (config.use_apple_decoder == 0) shairport_sync_set_alacdecoder(skeleton, "hammerton"); else shairport_sync_set_alacdecoder(skeleton, "apple"); } // debug(1,"Using the %s ALAC decoder.", ((config.use_apple_decoder==0) ? "Hammerton" : "Apple")); #else if (strcasecmp(th, "hammerton") == 0) { config.use_apple_decoder = 0; // debug(1,"Using the Hammerton ALAC decoder."); } else { warn("An unrecognised ALAC decoder: \"%s\" was requested via D-Bus interface. (Possibly " "support for this decoder was not compiled " "into this version of Shairport Sync.)", th); shairport_sync_set_alacdecoder(skeleton, "hammerton"); } #endif return TRUE; } gboolean notify_interpolation_callback(ShairportSync *skeleton, __attribute__((unused)) gpointer user_data) { char *th = (char *)shairport_sync_get_interpolation(skeleton); #ifdef CONFIG_SOXR if (strcasecmp(th, "basic") == 0) config.packet_stuffing = ST_basic; else if (strcasecmp(th, "soxr") == 0) config.packet_stuffing = ST_soxr; else if (strcasecmp(th, "auto") == 0) config.packet_stuffing = ST_auto; else { warn("An unrecognised interpolation method: \"%s\" was requested via the D-Bus interface.", th); switch (config.packet_stuffing) { case ST_basic: shairport_sync_set_interpolation(skeleton, "basic"); break; case ST_soxr: shairport_sync_set_interpolation(skeleton, "soxr"); break; case ST_auto: shairport_sync_set_interpolation(skeleton, "auto"); break; default: debug(1, "This should never happen!"); shairport_sync_set_interpolation(skeleton, "basic"); break; } } #else if (strcasecmp(th, "basic") == 0) config.packet_stuffing = ST_basic; else { warn("An unrecognised interpolation method: \"%s\" was requested via the D-Bus interface. " "(Possibly support for this method was not compiled " "into this version of Shairport Sync.)", th); shairport_sync_set_interpolation(skeleton, "basic"); } #endif return TRUE; } gboolean notify_volume_control_profile_callback(ShairportSync *skeleton, __attribute__((unused)) gpointer user_data) { char *th = (char *)shairport_sync_get_volume_control_profile(skeleton); // enum volume_control_profile_type previous_volume_control_profile = // config.volume_control_profile; if (strcasecmp(th, "standard") == 0) config.volume_control_profile = VCP_standard; else if (strcasecmp(th, "flat") == 0) config.volume_control_profile = VCP_flat; else { warn("Unrecognised Volume Control Profile: \"%s\".", th); switch (config.volume_control_profile) { case VCP_standard: shairport_sync_set_volume_control_profile(skeleton, "standard"); break; case VCP_flat: shairport_sync_set_volume_control_profile(skeleton, "flat"); break; default: debug(1, "This should never happen!"); shairport_sync_set_volume_control_profile(skeleton, "standard"); break; } } return TRUE; } gboolean notify_shuffle_callback(ShairportSyncAdvancedRemoteControl *skeleton, __attribute__((unused)) gpointer user_data) { // debug(1,"notify_shuffle_callback called"); if (shairport_sync_advanced_remote_control_get_shuffle(skeleton)) send_simple_dacp_command("setproperty?dacp.shufflestate=1"); else send_simple_dacp_command("setproperty?dacp.shufflestate=0"); return TRUE; } gboolean notify_loop_status_callback(ShairportSyncAdvancedRemoteControl *skeleton, __attribute__((unused)) gpointer user_data) { // debug(1,"notify_loop_status_callback called"); char *th = (char *)shairport_sync_advanced_remote_control_get_loop_status(skeleton); // enum volume_control_profile_type previous_volume_control_profile = // config.volume_control_profile; // debug(1, "notify_loop_status_callback called with loop status of \"%s\".", th); if (strcasecmp(th, "off") == 0) send_simple_dacp_command("setproperty?dacp.repeatstate=0"); else if (strcasecmp(th, "one") == 0) send_simple_dacp_command("setproperty?dacp.repeatstate=1"); else if (strcasecmp(th, "all") == 0) send_simple_dacp_command("setproperty?dacp.repeatstate=2"); else if (strcasecmp(th, "not available") != 0) { warn("Illegal Loop Request: \"%s\".", th); switch (metadata_store.repeat_status) { case RS_NOT_AVAILABLE: shairport_sync_advanced_remote_control_set_loop_status(skeleton, "Not Available"); break; case RS_OFF: shairport_sync_advanced_remote_control_set_loop_status(skeleton, "Off"); break; case RS_ONE: shairport_sync_advanced_remote_control_set_loop_status(skeleton, "One"); break; case RS_ALL: shairport_sync_advanced_remote_control_set_loop_status(skeleton, "All"); break; default: debug(1, "This should never happen!"); shairport_sync_advanced_remote_control_set_loop_status(skeleton, "Off"); break; } } return TRUE; } static gboolean on_handle_quit(ShairportSync *skeleton, GDBusMethodInvocation *invocation, __attribute__((unused)) const gchar *command, __attribute__((unused)) gpointer user_data) { debug(1, "quit requested (native interface)"); if (main_thread_id) debug(1, "Cancelling main thread results in %d.", pthread_cancel(main_thread_id)); else debug(1, "Main thread ID is NULL."); shairport_sync_complete_quit(skeleton, invocation); return TRUE; } static gboolean on_handle_remote_command(ShairportSync *skeleton, GDBusMethodInvocation *invocation, const gchar *command, __attribute__((unused)) gpointer user_data) { debug(1, "RemoteCommand with command \"%s\".", command); int reply = 0; char *client_reply = NULL; ssize_t reply_size = 0; reply = dacp_send_command((const char *)command, &client_reply, &reply_size); char *client_reply_hex = alloca(reply_size * 2 + 1); if (client_reply_hex) { char *p = client_reply_hex; if (client_reply) { char *q = client_reply; int i; for (i = 0; i < reply_size; i++) { snprintf(p, 3, "%02X", *q); p += 2; q++; } } *p = '\0'; } shairport_sync_complete_remote_command(skeleton, invocation, reply, client_reply_hex); return TRUE; } static void on_dbus_name_acquired(GDBusConnection *connection, const gchar *name, __attribute__((unused)) gpointer user_data) { // debug(1, "Shairport Sync native D-Bus interface \"%s\" acquired on the %s bus.", name, // (config.dbus_service_bus_type == DBT_session) ? "session" : "system"); shairportSyncSkeleton = shairport_sync_skeleton_new(); g_dbus_interface_skeleton_export(G_DBUS_INTERFACE_SKELETON(shairportSyncSkeleton), connection, "/org/gnome/ShairportSync", NULL); shairportSyncDiagnosticsSkeleton = shairport_sync_diagnostics_skeleton_new(); g_dbus_interface_skeleton_export(G_DBUS_INTERFACE_SKELETON(shairportSyncDiagnosticsSkeleton), connection, "/org/gnome/ShairportSync", NULL); shairportSyncRemoteControlSkeleton = shairport_sync_remote_control_skeleton_new(); g_dbus_interface_skeleton_export(G_DBUS_INTERFACE_SKELETON(shairportSyncRemoteControlSkeleton), connection, "/org/gnome/ShairportSync", NULL); shairportSyncAdvancedRemoteControlSkeleton = shairport_sync_advanced_remote_control_skeleton_new(); g_dbus_interface_skeleton_export( G_DBUS_INTERFACE_SKELETON(shairportSyncAdvancedRemoteControlSkeleton), connection, "/org/gnome/ShairportSync", NULL); g_signal_connect(shairportSyncSkeleton, "notify::interpolation", G_CALLBACK(notify_interpolation_callback), NULL); g_signal_connect(shairportSyncSkeleton, "notify::alacdecoder", G_CALLBACK(notify_alacdecoder_callback), NULL); g_signal_connect(shairportSyncSkeleton, "notify::disable-standby-mode", G_CALLBACK(notify_disable_standby_mode_callback), NULL); g_signal_connect(shairportSyncSkeleton, "notify::volume-control-profile", G_CALLBACK(notify_volume_control_profile_callback), NULL); g_signal_connect(shairportSyncSkeleton, "notify::disable-standby", G_CALLBACK(notify_disable_standby_callback), NULL); g_signal_connect(shairportSyncSkeleton, "notify::convolution", G_CALLBACK(notify_convolution_callback), NULL); g_signal_connect(shairportSyncSkeleton, "notify::convolution-gain", G_CALLBACK(notify_convolution_gain_callback), NULL); g_signal_connect(shairportSyncSkeleton, "notify::convolution-impulse-response-file", G_CALLBACK(notify_convolution_impulse_response_file_callback), NULL); g_signal_connect(shairportSyncSkeleton, "notify::loudness", G_CALLBACK(notify_loudness_callback), NULL); g_signal_connect(shairportSyncSkeleton, "notify::loudness-threshold", G_CALLBACK(notify_loudness_threshold_callback), NULL); g_signal_connect(shairportSyncSkeleton, "notify::drift-tolerance", G_CALLBACK(notify_drift_tolerance_callback), NULL); g_signal_connect(shairportSyncSkeleton, "handle-quit", G_CALLBACK(on_handle_quit), NULL); g_signal_connect(shairportSyncSkeleton, "handle-remote-command", G_CALLBACK(on_handle_remote_command), NULL); g_signal_connect(shairportSyncDiagnosticsSkeleton, "notify::verbosity", G_CALLBACK(notify_verbosity_callback), NULL); g_signal_connect(shairportSyncDiagnosticsSkeleton, "notify::statistics", G_CALLBACK(notify_statistics_callback), NULL); g_signal_connect(shairportSyncDiagnosticsSkeleton, "notify::elapsed-time", G_CALLBACK(notify_elapsed_time_callback), NULL); g_signal_connect(shairportSyncDiagnosticsSkeleton, "notify::delta-time", G_CALLBACK(notify_delta_time_callback), NULL); g_signal_connect(shairportSyncDiagnosticsSkeleton, "notify::file-and-line", G_CALLBACK(notify_file_and_line_callback), NULL); g_signal_connect(shairportSyncRemoteControlSkeleton, "handle-fast-forward", G_CALLBACK(on_handle_fast_forward), NULL); g_signal_connect(shairportSyncRemoteControlSkeleton, "handle-rewind", G_CALLBACK(on_handle_rewind), NULL); g_signal_connect(shairportSyncRemoteControlSkeleton, "handle-toggle-mute", G_CALLBACK(on_handle_toggle_mute), NULL); g_signal_connect(shairportSyncRemoteControlSkeleton, "handle-next", G_CALLBACK(on_handle_next), NULL); g_signal_connect(shairportSyncRemoteControlSkeleton, "handle-previous", G_CALLBACK(on_handle_previous), NULL); g_signal_connect(shairportSyncRemoteControlSkeleton, "handle-pause", G_CALLBACK(on_handle_pause), NULL); g_signal_connect(shairportSyncRemoteControlSkeleton, "handle-play-pause", G_CALLBACK(on_handle_play_pause), NULL); g_signal_connect(shairportSyncRemoteControlSkeleton, "handle-play", G_CALLBACK(on_handle_play), NULL); g_signal_connect(shairportSyncRemoteControlSkeleton, "handle-stop", G_CALLBACK(on_handle_stop), NULL); g_signal_connect(shairportSyncRemoteControlSkeleton, "handle-resume", G_CALLBACK(on_handle_resume), NULL); g_signal_connect(shairportSyncRemoteControlSkeleton, "handle-shuffle-songs", G_CALLBACK(on_handle_shuffle_songs), NULL); g_signal_connect(shairportSyncRemoteControlSkeleton, "handle-volume-up", G_CALLBACK(on_handle_volume_up), NULL); g_signal_connect(shairportSyncRemoteControlSkeleton, "handle-volume-down", G_CALLBACK(on_handle_volume_down), NULL); g_signal_connect(shairportSyncRemoteControlSkeleton, "handle-set-airplay-volume", G_CALLBACK(on_handle_set_airplay_volume), NULL); g_signal_connect(shairportSyncAdvancedRemoteControlSkeleton, "handle-set-volume", G_CALLBACK(on_handle_set_volume), NULL); g_signal_connect(shairportSyncAdvancedRemoteControlSkeleton, "notify::shuffle", G_CALLBACK(notify_shuffle_callback), NULL); g_signal_connect(shairportSyncAdvancedRemoteControlSkeleton, "notify::loop-status", G_CALLBACK(notify_loop_status_callback), NULL); add_metadata_watcher(dbus_metadata_watcher, NULL); shairport_sync_set_loudness_threshold(SHAIRPORT_SYNC(shairportSyncSkeleton), config.loudness_reference_volume_db); shairport_sync_set_drift_tolerance(SHAIRPORT_SYNC(shairportSyncSkeleton), config.tolerance); #ifdef CONFIG_APPLE_ALAC if (config.use_apple_decoder == 0) { shairport_sync_set_alacdecoder(SHAIRPORT_SYNC(shairportSyncSkeleton), "hammerton"); debug(1, ">> ALACDecoder set to \"hammerton\""); } else { shairport_sync_set_alacdecoder(SHAIRPORT_SYNC(shairportSyncSkeleton), "apple"); debug(1, ">> ALACDecoder set to \"apple\""); } #else shairport_sync_set_alacdecoder(SHAIRPORT_SYNC(shairportSyncSkeleton), "hammerton"); debug(1, ">> ALACDecoder set to \"hammerton\""); #endif shairport_sync_set_active(SHAIRPORT_SYNC(shairportSyncSkeleton), FALSE); debug(1, ">> Active set to \"false\""); switch (config.disable_standby_mode) { case disable_standby_off: shairport_sync_set_disable_standby_mode(SHAIRPORT_SYNC(shairportSyncSkeleton), "off"); debug(1, ">> disable standby mode set to \"off\""); break; case disable_standby_always: shairport_sync_set_disable_standby_mode(SHAIRPORT_SYNC(shairportSyncSkeleton), "always"); debug(1, ">> disable standby mode set to \"always\""); break; case disable_standby_auto: shairport_sync_set_disable_standby_mode(SHAIRPORT_SYNC(shairportSyncSkeleton), "auto"); debug(1, ">> disable standby mode set to \"auto\""); break; default: debug(1, "invalid disable_standby mode!"); break; } #ifdef CONFIG_SOXR if (config.packet_stuffing == ST_basic) { shairport_sync_set_interpolation(SHAIRPORT_SYNC(shairportSyncSkeleton), "basic"); debug(1, ">> interpolation set to \"basic\" (soxr support built in)"); } else if (config.packet_stuffing == ST_auto) { shairport_sync_set_interpolation(SHAIRPORT_SYNC(shairportSyncSkeleton), "auto"); debug(1, ">> interpolation set to \"auto\" (soxr support built in)"); } else { shairport_sync_set_interpolation(SHAIRPORT_SYNC(shairportSyncSkeleton), "soxr"); debug(1, ">> interpolation set to \"soxr\""); } #else if (config.packet_stuffing == ST_basic) { shairport_sync_set_interpolation(SHAIRPORT_SYNC(shairportSyncSkeleton), "basic"); debug(1, ">> interpolation set to \"basic\" (no soxr support)"); } else if (config.packet_stuffing == ST_auto) { shairport_sync_set_interpolation(SHAIRPORT_SYNC(shairportSyncSkeleton), "auto"); debug(1, ">> interpolation set to \"auto\" (no soxr support)"); } #endif if (config.volume_control_profile == VCP_standard) shairport_sync_set_volume_control_profile(SHAIRPORT_SYNC(shairportSyncSkeleton), "standard"); else shairport_sync_set_volume_control_profile(SHAIRPORT_SYNC(shairportSyncSkeleton), "flat"); if (config.keep_dac_busy == 0) { shairport_sync_set_disable_standby(SHAIRPORT_SYNC(shairportSyncSkeleton), FALSE); } else { shairport_sync_set_disable_standby(SHAIRPORT_SYNC(shairportSyncSkeleton), TRUE); } if (config.loudness == 0) { shairport_sync_set_loudness(SHAIRPORT_SYNC(shairportSyncSkeleton), FALSE); } else { shairport_sync_set_loudness(SHAIRPORT_SYNC(shairportSyncSkeleton), TRUE); } #ifdef CONFIG_CONVOLUTION if (config.convolution == 0) { shairport_sync_set_convolution(SHAIRPORT_SYNC(shairportSyncSkeleton), FALSE); } else { shairport_sync_set_convolution(SHAIRPORT_SYNC(shairportSyncSkeleton), TRUE); } if (config.convolution_ir_file) shairport_sync_set_convolution_impulse_response_file(SHAIRPORT_SYNC(shairportSyncSkeleton), config.convolution_ir_file); // else // shairport_sync_set_convolution_impulse_response_file(SHAIRPORT_SYNC(shairportSyncSkeleton), // NULL); #endif shairport_sync_set_version(SHAIRPORT_SYNC(shairportSyncSkeleton), PACKAGE_VERSION); char *vs = get_version_string(); shairport_sync_set_version_string(SHAIRPORT_SYNC(shairportSyncSkeleton), vs); if (vs) free(vs); shairport_sync_diagnostics_set_verbosity( SHAIRPORT_SYNC_DIAGNOSTICS(shairportSyncDiagnosticsSkeleton), debuglev); // debug(2,">> log verbosity is %d.",debuglev); if (config.statistics_requested == 0) { shairport_sync_diagnostics_set_statistics( SHAIRPORT_SYNC_DIAGNOSTICS(shairportSyncDiagnosticsSkeleton), FALSE); // debug(1, ">> statistics logging is off"); } else { shairport_sync_diagnostics_set_statistics( SHAIRPORT_SYNC_DIAGNOSTICS(shairportSyncDiagnosticsSkeleton), TRUE); // debug(1, ">> statistics logging is on"); } if (config.debugger_show_elapsed_time == 0) { shairport_sync_diagnostics_set_elapsed_time( SHAIRPORT_SYNC_DIAGNOSTICS(shairportSyncDiagnosticsSkeleton), FALSE); // debug(1, ">> elapsed time is included in log entries"); } else { shairport_sync_diagnostics_set_elapsed_time( SHAIRPORT_SYNC_DIAGNOSTICS(shairportSyncDiagnosticsSkeleton), TRUE); // debug(1, ">> elapsed time is not included in log entries"); } if (config.debugger_show_relative_time == 0) { shairport_sync_diagnostics_set_delta_time( SHAIRPORT_SYNC_DIAGNOSTICS(shairportSyncDiagnosticsSkeleton), FALSE); // debug(1, ">> delta time is included in log entries"); } else { shairport_sync_diagnostics_set_delta_time( SHAIRPORT_SYNC_DIAGNOSTICS(shairportSyncDiagnosticsSkeleton), TRUE); // debug(1, ">> delta time is not included in log entries"); } if (config.debugger_show_file_and_line == 0) { shairport_sync_diagnostics_set_file_and_line( SHAIRPORT_SYNC_DIAGNOSTICS(shairportSyncDiagnosticsSkeleton), FALSE); // debug(1, ">> file and line is included in log entries"); } else { shairport_sync_diagnostics_set_file_and_line( SHAIRPORT_SYNC_DIAGNOSTICS(shairportSyncDiagnosticsSkeleton), TRUE); // debug(1, ">> file and line is not included in log entries"); } shairport_sync_remote_control_set_player_state(shairportSyncRemoteControlSkeleton, "Not Available"); shairport_sync_advanced_remote_control_set_playback_status( shairportSyncAdvancedRemoteControlSkeleton, "Not Available"); shairport_sync_advanced_remote_control_set_loop_status(shairportSyncAdvancedRemoteControlSkeleton, "Not Available"); debug(1, "Shairport Sync native D-Bus service started at \"%s\" on the %s bus.", name, (config.dbus_service_bus_type == DBT_session) ? "session" : "system"); service_is_running = 1; } static void on_dbus_name_lost_again(__attribute__((unused)) GDBusConnection *connection, __attribute__((unused)) const gchar *name, __attribute__((unused)) gpointer user_data) { warn("could not acquire a Shairport Sync native D-Bus interface \"%s\" on the %s bus.", name, (config.dbus_service_bus_type == DBT_session) ? "session" : "system"); } static void on_dbus_name_lost(__attribute__((unused)) GDBusConnection *connection, __attribute__((unused)) const gchar *name, __attribute__((unused)) gpointer user_data) { // debug(1, "could not acquire a Shairport Sync native D-Bus interface \"%s\" on the %s bus -- // will try adding the process " // "number to the end of it.", // name, (config.dbus_service_bus_type == DBT_session) ? "session" : "system"); pid_t pid = getpid(); char interface_name[256] = ""; snprintf(interface_name, sizeof(interface_name), "org.gnome.ShairportSync.i%d", pid); GBusType dbus_bus_type = G_BUS_TYPE_SYSTEM; if (config.dbus_service_bus_type == DBT_session) dbus_bus_type = G_BUS_TYPE_SESSION; // debug(1, "Looking for a Shairport Sync native D-Bus interface \"%s\" on the %s bus.", // interface_name,(config.dbus_service_bus_type == DBT_session) ? "session" : "system"); g_bus_own_name(dbus_bus_type, interface_name, G_BUS_NAME_OWNER_FLAGS_NONE, NULL, on_dbus_name_acquired, on_dbus_name_lost_again, NULL, NULL); } int start_dbus_service() { // shairportSyncSkeleton = NULL; GBusType dbus_bus_type = G_BUS_TYPE_SYSTEM; if (config.dbus_service_bus_type == DBT_session) dbus_bus_type = G_BUS_TYPE_SESSION; // debug(1, "Looking for a Shairport Sync native D-Bus interface \"org.gnome.ShairportSync\" on // the %s bus.",(config.dbus_service_bus_type == DBT_session) ? "session" : "system"); ownerID = g_bus_own_name(dbus_bus_type, "org.gnome.ShairportSync", G_BUS_NAME_OWNER_FLAGS_NONE, NULL, on_dbus_name_acquired, on_dbus_name_lost, NULL, NULL); return 0; // this is just to quieten a compiler warning } void stop_dbus_service() { debug(2, "stopping dbus service"); if (ownerID) g_bus_unown_name(ownerID); else debug(1, "Zero OwnerID for \"org.gnome.ShairportSync\"."); service_is_running = 0; } int dbus_service_is_running() { return service_is_running; }